Antidot tunneling between Quantum Hall liquids with different filling factors
Abstract
We consider tunneling through two point contacts between two edges of Quantum Hall liquids of different filling factors 0,1=1/ (2m0,1+1) with m0-m1 m>0. Properties of the antidot formed between the point contacts in the strong-tunneling limit are shown to be very different from the 0 =1 case, and include vanishing average total current in the two contacts and quasiparticles of charge e/m. For m>1, quasiparticle tunneling leads to non-trivial m-state dynamics of effective flux through the antidot which restores the regular ``electron'' periodicity of the current in flux despite the fractional charge and statistics of quasiparticles.
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